师资队伍

作物栽培学与耕作学系

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   名:刘连涛

   别:男

   称:教授

联系电话:0312-7528810

电子邮箱:liultday@126.com

研究领域:棉花栽培生理





个人简历

2000.09- 2004.07: 3522vip浦京集团农学学士;

2004.09- 2007.07: 3522vip浦京集团农学硕士;

2010.09- 2016.07河北农业大学农学博士;

2007.08-至今 3522vip浦京集团3522vip浦京集团;

2022.12-至今 教授,博士生导师

2024.06-至今 教授,博士生导师,副院长。




荣誉称号及社会兼职

1. 河北省棉花学会常务理事,2023

2. 河北省三三三人才工程三层次,2020




成果奖励

1. 刘连涛(第3完成人). 3522vip浦京集团棉花轻简抗逆丰产高效技术创新团队,农业农村部, 神农中华农业科技奖优秀创新团队奖, 2023

2. 刘连涛(第4完成人). 棉花防衰丰产集中成熟高效栽培关键技术创建与应用,农业农村部,中华农业科技进步奖, 一等奖, 2021

3. 刘连涛(第3完成人). 棉花集中采收高效丰产栽培关键技术创建与应用, 河北省人民政府, 河北省科技进步奖, 二等奖,2019年;

4. 刘连涛(第4完成人). 转基因抗虫棉早衰的生理生态机制及调控技术, 河北省人民政府, 河北省科技进步奖, 一等奖, 2012

5. 刘连涛(第8完成人).不同形态氮素营养对棉花生长、生理与产量的效应及其应用, 河北省人民政府, 河北省科技进步奖, 一等奖, 2008

6. 刘连涛(第1完成人).冀中棉区棉花氮素效应及调控技术, 3522vip浦京集团,3522vip浦京集团科技进步奖, 一等奖 2014

7. 刘连涛(第4完成人).基于不同尺度的叶绿素荧光遥感被动探测方法与应用,3522vip浦京集团自然科学奖, 一等奖, 2013

8. 刘连涛5完成人.小麦不同染色体对干旱和低磷胁迫的反应及生理调控效, 3522vip浦京集团自然科学奖, 一等奖, 2015

9. 刘连涛2完成人.农时制模式下实习管理创新新实践 2019




◆教学工作

1. 本科生课程:《农学概论》(主讲)、《作物栽培学》(参讲)

2. 研究生课程:《作物学仪器应用原理与技术》(主讲)、《作物科学研究法》(参讲)




科研项目

1. 根系吸水能力影响棉花早衰的生理机制,河北省自然科学基金面上项目,6万元,2024.01-2026.12,课题主持人。

2. 根系水力导度及其与根系形态协同影响棉花衰老的生理机制,国家自然科学基金面上项目,53万元(直接经费),2023.01-2026.12,课题主持人。

3. 根系皮层衰老及代谢对棉花早衰的影响机理,国家自然科学基金面上项目, 58万(直接经费),2022.01-2025.12,第2参加人。

4. 微根系(细根、根毛)形态和生理特征对棉花早衰的影响和机制,国家自然科学基金面上项目,60万元(直接经费),2019.01-2022.12,课题主持人。

5. 棉花根系皮层解剖结构、代谢特征与氮素吸收利用关系的研究,河北省自然科学基金面上项目,10万元,2020.01-2022.12,课题主持人。

6. 棉花高效轻简化技术集成与示范,国家重点研发计划子课题,40万元,2018.06-2020.12,任务主持人。

7. 微根系(细根、根毛)形态和生理特征对棉花早衰的影响和机制,3522vip浦京集团科研发展基金计划项目,10万元,2019.01~2022.12,课题主持人。

8. 棉花冠层类型与整枝方式对各类叶系统影响的生理生态机制,国家自然科学基金面上项目, 65万元(直接经费),2016.01-2019.12,第4参加人。

9. 棉花早衰群体根系生长特征及关系的生理机制,国家自然科学基金青年基金项目,25万元,2014.01−2016.12,课题主持人。

10. 棉花根系生长特性与氮素吸收利用关系的研究,河北省自然科学基金青年基金项目,4万元,2016.01-2018.12,课题主持人。

11. 氮素营养对转基因抗虫棉群体上层叶系统的生理效应及差异蛋白组学分析,国家自然科学基金面上项目,30万元,2012.01−2015.12,第2参加人。

12. 基于日光诱导荧光和PRI的棉花水分胁迫探测研究,国家自然科学基金青年基金,25万元,2012/01-2014/12,第3参加人。

13. 外源一氧化氮对胁迫环境下棉花的调控效应研究,河北省自然科学基金面上项目,5万元,2010.1-2012.12,第2参加人。




◆授权专利

1. 刘连涛,李存东,孙红春,张永江.一种根系冲洗装置和根系冲洗方法,ZL201410162590.8

2. 刘连涛,王晓丹,孙红春,张永江,李存东. 一种根系冲洗操作平台,ZL 201621250069.0

3. 刘连涛,王晓丹,孙红春,李存东. 一种用于定位打孔设备的装置,2014.02.12ZL201320512427.0,授权,批准号ZL 203430428 U

4. 刘连涛,蒲娜娜,王晓丹,刘梦星,孙红春,李存东. 一种原位根毛观测装置,ZL201720260146.9

5. 刘连涛,王晓丹,侯明语,李存东,孙红春,张永江. 负压式伤流液收集装置,2018.2.9ZL201720507609.7,授权

6. 刘连涛,李久熙,孙红春,李东晓,李存东,陈静. 一种小麦穗部光合速率测量室,ZL201520410311.5

7. 刘连涛,陈静,孙红春,张永江,李存东. 一种作物群体光合速率测定装置,ZL201520410720.5

8. 李存东,刘连涛,孙红春,张永江. 防控棉花早衰的复配剂及其使用方法,ZL201410298634.X

9. 白燕丹,刘连涛,孙红春,张永江,张科,李存东. 一种种子萌发纸,ZL202022993868.4

10. 张永江,刘连涛,孙红春,李存东.一种基于AR手机的棉花株型设计实验教学方法,ZL 2018100208883

11. 李存东,孙红春,刘连涛,张永江.一种棉花缓释肥及其施用方法,CN 102515878 B

12. 刘朋程,刘连涛,李存东,孙红春,张永江. 一种实验田划线器,ZL201620435051.1




◆发表论文

1. Congcong GuoKe ZhangHongchun SunLingxiao ZhuYongjiang ZhangGuiyan WangAnchang LiZhiying BaiLiantao Liu*Cundong Li*. Root cortical senescence enhances drought tolerance in cotton. Plant, Cell & Environment, 2024, 15161.

2. Lingxiao ZhuHongchun SunRanran WangCongcong GuoLiantao Liu*Yongjiang ZhangKe ZhangZhiying BaiAnchang LiJiehua Zhu*Cundong Li*. Exogenous melatonin improves cotton yield under drought stress by enhancing root development and reducing root damage. Journal of Integrative Agriculture, 2024, 23(10): 2-20.

3. Congcong GuoHongchun SunXiaoyuan BaoLingxiao ZhuYongjiang ZhangKe ZhangAnchang LiZhiying BaiLiantao Liu*Cundong Li*. Increasing root-lower characteristics improves drought tolerance in cotton cultivars at the seedling stage. Journal of Integrative Agriculture, 2024, 23: 2242-2254.

4. Hui TangXue ChengQiushi YuJiaXi ZhangNan Wang*Liantao Liu*. Improved transformer for time series senescence root recognition, Plant Phenomics. 2024, 6: 0159.

5. Congcong GuoXiaoyuan BaoHongchun SunLingxiao ZhuYongjiang ZhangKe ZhangZhiying BaiJijie ZhuXiaoqing LiuAnchang LiHezhong DongLijie Zhan*Liantao Liu*Cundong Li*. Optimizing root system architecture to improve cotton drought tolerance and minimize yield loss during mild drought stress[J]. Field Crops Research, 2024, 308: 109305.

6. Congcong GuoLingxiao ZhuHongchun SunQiucheng HanShijie WangJijie ZhuYongjiang ZhangKe ZhangZhiying BaiAnchang LiLiantao Liu*Cundong Li*. Evaluation of drought-tolerant varieties based on root system architecture in cotton (Gossypium hirsutum L.). BMC Plant Biology, 2024, 24: 127.

7. Hanbing JiangFeakins Sarah JLiantao LiuXinliang Dong, Cundong Li*, Xiuwei Liu*. Leaf n-alkane δ13C improves upon conventional bulk leaf δ13C for assessing drought sensitivity of winter wheat cultivars. Agricultural Water Management, 2024, 291: 108638.

8. Qiushi YuNan WangHui TangJiaXi ZhangRui XuLiantao Liu*. In situ root dataset expansion strategy based on an improved CycleGAN generator. Plant Phenomics, 2024, 6: 0148.

9. Lingxiao ZhuAnchang LiHongchun SunPing LiXiaoqing LiuCongcong GuoYongjiang ZhangKe ZhangZhiying BaiHezhong DongLiantao Liu* Cundong Li*. The effect of exogenous melatonin on root growth and lifespan and seed cotton yield under drought stress. Industrial Crops and Products, 2023, 204: 117344

10. Yuanqi MaHongchun SunYurong YangZhao LiPing LiYuetong QiaoYongjiang ZhangKe ZhangZhiying BaiAnchang LiCundong Li*Liantao Liu*. Long-term nitrogen fertilizer management for enhancing use efficiency and sustainable cotton (Gossypium hirsutum L.). Frontiers in Plant Science, 2023, 14: 1271846.

11. Heyang TianHongchun SunLingxiao ZhuKe ZhangYongjiang ZhangHana ZhangJijie ZhuXiaoqing LiuZhiying BaiAnchang LiLiwen TianLiantao Liu*Cundong Li*. Response of in situ root phenotypes to potassium stress in cotton. PeerJ, 2023, 11: e15587.

12. Shuo WangHongchun SunLingxiao ZhuKe ZhangYongjiang ZhangHaina ZhangJijie ZhuXiaoqing LiuZhiying BaiAnchang LiLiwen TianCundong Li*Liantao Liu*. Effects of spraying with ethephon and early topping on the growth, yield, and earliness of cotton under late-sowing and high-density cultivation modes. Agronomy, 2023, 13: 1244.

13. Kai YangHongchun SunMengxing LiuLingxiao ZhuKe ZhangYongjiang ZhangAnchang LiHaina ZhangJijie ZhuXiaoqing LiuZhiying BaiLiantao Liu*Cundong Li*. Morphological and physiological mechanisms of melatonin on delaying drought-induced leaf senescence in cotton. International Journal of molecular Science, 2023, 24: 7269.

14. Qiushi YuJingqi WangHui TangJiaxi ZhangWenjie ZhangLiantao Liu*Nan Wang*. Application of improved UNet and EnglightenGAN for segmentation and reconstruction of in situ roots. Plant Phenomics, 2023, 5: 0066.

15. Qiushi YuHui TangLingxiao ZhuWenjie ZhangLiantao Liu*Nan Wang *. A method of cotton root segmentation based on edge devices. Frontiers in Plant Science, 14: 1122833.

16. Congcong GuoLiantao LiuKe ZhangHongchun SunYongjiang ZhangAnchang LiZhiying BaiHezhong Dong*Cundong Li*. High-throughput estimation of plant height and above-ground biomass of cotton using digital image analysis and Canopeo. Technology in Agronomy, 2022, 2: 4.

17. Hongjuan ZhaoNan WangHongchun SunLingxiao ZhuKe ZhangYongjiang ZhangJijie ZhuAnchang LiZhiying BaiXiaoqing LiuHezhong DongLiantao Liu*Cundong Li*. RhizoPot platform: A high-throughput in situ root phenotyping platform with integrated hardware and software. Frontiers in Plant Science, 2022, 13: 1004904.

18. Lingxiao ZhuLiantao Liu*Hongchun SunKe ZhangYongjiang ZhangAnchang LiZhiying BaiGuiyan WangXiaoqing LiuHezhong Dong*Cundong Li*. Low nitrogen supply inhibits root growth but prolongs lateral root lifespan in cotton. Industrial Crops and Products, 2022, 189: 115733.

19. Cong FanMingyu HouPeng SiHongchun SunKe ZhangZhiying BaiGuiyan WangCundong Li*Liantao Liu*Yongjiang Zhang*. Response of root and root hair phenotypes of cotton seedlings under high temperature revealed with RhizoPot. Frontiers in Plant Science, 2022, 13: 1007145.

20. Ke ZhangHao ZhangYanyun PanYanxiao NiuLin GuoYuru MaShijun TianJiarong WeiCong WangXiubo YangYunze FuPing QuLiantao LiuYongjiang ZhangHongchun SunZhiying BaiJingao DongCundong Li*Xigang Liu*. Cell- and noncell-autonomous AUXIN RESPONSE FACTOR3 controls meristem proliferation and phyllotactic patterns, Plant Physiology, 2022, 190(4): 2335-2349.

21. Congcong GuoLiantao Liu*Hongchun SunNan WangKe ZhangYongjiang ZhangJijie ZhuAnchang LiZhiying BaiXiaoqing LiuHezhong Dong*Cundong Li*. Predicting Fv/Fm and evaluating cotton drought tolerance using hyperspectral and 1D-CNN. Frontiers in Plant Science, 2022, 13: 1007150.

22. Yuhui GuoDongxiao LiLiantao LiuHongchun SunLingxiao ZhuKe ZhangHaiming ZhaoYongjiang ZhangAnchang LiZhiying BaiLiwen Tian*Hezhong Dong*Cundong Li*. Seed priming with melatonin promotes seed germination and seedling growth of Triticale hexaploide L. under PEG-6000 induced drought stress. Frontiers in Plant Science, 2022, 13: 93291.

23. Lingxiao ZhuLiantao LiuHongchun SunYongjiang ZhangKe ZhangZhiying BaiAnchang LiHezhong Dong*Cundong Li*. Effects of chemical topping on cotton development, yield and quality in the Yellow River Valley of China. Journal of Integrative Agriculture, 2022, 21(1): 78-90.

24. Anchang LiLingxiao ZhuWenjun XuLiantao Liu*Guifa Teng*. Recent advances in methods for in situ root phenotyping. PeerJ, 2022, 10: e13638.

25. Haipeng LiHongchun SunWenchao PingLiantao LiuYongjiang ZhangKe ZhangZhiying BaiAnchang LiJijie Zhu*Cundong Li*. Exogenous ethylene promotes the germination of cotton seeds under salt stress. Journal of Plant Growth Regulation, 2022, 42(6): 3923-3933.

26. Zhihui ZhangLiantao LiuHongye LiShaocong ZhangXiaoyi FuXiuzhen ZhaiNa YangJiaming ShenRuiqi Li*Dongxiao Li*. Exogenous melatonin promotes the salt tolerance by removing active oxygen and maintaining ion balance in wheat (Triticum aestivum L.). Frontiers in Plant Science, 2022, 12: 787062.

27. Lingxiao ZhuLiantao Liu*Hongchun SunYongjiang ZhangJijie ZhuKe ZhangAnchang LiZhiying BaiGuiyan WangCundong Li*. Physiological and comparative transcriptomic analysis provide insight into cotton (Gossypium hirsutum L.) root senescence in response. Frontiers in Plant Science, 2021, 12: 748715.

28. Zichen ZhangLingxiao ZhuDongxiao LiNan WangHongchun SunYongjiang ZhangKe ZhangAnchang LiZhiying BaiCundong Li*Liantao Liu*. In situ root phenotypes of cotton seedlings under phosphorus stress revealed through RhizoPot. Frontiers in Plant Science, 2021, 12: 716691.

29. Guoping WangLu FengLiantao LiuYongjiang ZhangAnchang LiZhanbiao WangYingchun HanYabing Li*Cundong Li*Hezhong Dong*. Early relay intercropping of short-season cotton increases lint yield and earliness by improving the yield components and boll distribution under wheat-cotton double cropping. Agriculture, 2021, 11: 1294.

30. Huijie GuLiantao LiuJohn R. ButnorHongyong SunXiying ZhangCundong Li*Xiuwei Liu*. Electrical capacitance estimates crop root traits best under dry conditions—a case study in cotton (Gossypium Hirsutum L.). Plant and Soil, 2021, 467: 549-67.

31. Jia Kang JLiantao LiuFucheng ZhangChen ShenNan WangLimin Shao*. Semantic segmentation model of cotton roots in-situ image based on attention mechanism. Computers and Electronics in Agriculture, 2021, 189: 106370.

32. Lingxiao Zhu LLiantao LiuHongchun SunYongjiang ZhangXiuwei LiuNan WangJing ChenKe ZhangZhiying BaiGuiyan WangLiwen Tian*Cundong Li*. The responses of lateral roots and root hairs to nitrogen stress in cotton based on daily root measurements. Journal of Agronomy and Crop Science, 2022, 208(1): 89-105.

33. Dan JiangBin Lu Liantao LiuWenjing DuanYanjun MengJin LiKe ZhangHongchun SunYongjiang ZhangHezhong DongZhiying Bai*Cundong Li*. Exogenous melatonin improves the salt tolerance of cotton by removing active oxygen and protecting photosynthetic organs. BMC Plant Biology, 2021, 21(1): 1-19.

34. Li ChenBin LuLiantao LiuWenjing DuanDan JiangJin LiKe ZhangHongchun SunYongjiang ZhangCundong Li*Zhiying Bai*. Melatonin promotes seed germination under salt stress by regulating ABA and GA3 in cotton (Gossypium hirsutum L.). Plant Physiology and Biochemistry, 2021, 162: 506-516.

35. 肖爽、韩雨辰、号宇然、王晓蕾、刘连涛、孙红春、张永江、李存东*. 聚乙二醇引发对盐胁迫下棉种萌发及生理特性的影响[J]. 核农学报, 2021, v.35(01):208-216.

36. Chen ShenLiantao LiuLingxiao ZhuJia KangNan WangLimin Shao*. High-Throughput in situ root image segmentation based on the improved DeepLabv3C method. Frontiers in Plant Science, 2021, 11: 576791.

37. Shuang XiaoLiantao LiuYongjiang ZhangHongchun SunKe ZhangZhiying BaiHezhong Dong*Cundong Li*. Fine root and root hair morphology of cotton under drought stress revealed with RhizoPot. Journal of Agronomy and Crop Science 2020, 206(6): 679-693.

38. Shuang XiaoLiantao LiuYongjiang ZhangHongchun SunKe ZhangZhiying BaiHezhong DongYuchun LiuCundong Li*. Tandem mass tag-based (TMT) quantitative proteomics analysis reveals the response of fine roots to drought stress in cotton (Gossypium hirsutum L.). BMC Plant Biology, 2020, 20: 328.

39. Jing ChenLiantao LiuZhanbiao WangYongjiang ZhangHongchun SunShijia SongZhiying BaiZhanyuan Lu*Cundong Li*. Nitrogen fertilization increases root growth and coordinates the root–shoot relationship in cotton. Frontiers in Plant Science, 2020, 11: 880.

40. Yandan BaiShuang XiaoZichen ZhangYongjiang ZhangHongchun SunKe ZhangXiaodan WangZhiying BaiCundong Li*Liantao Liu*. Melatonin improves the germination rate of cotton seeds under drought stress by opening pores in the seed coat. PeerJ, 2020, 8: e9450.

41. Dan JiangBin LuLiantao LiuWenjing DuanLi ChenJin LiKe ZhangHongchun SunYongjiang ZhangHezhong DongCundong Li*Zhiying Bai*. Exogenous melatonin improves salt stress adaptation of cotton seedlings by regulating active oxygen metabolism. PeerJ, 2020, 8: e10486.

42. Jiarong WeiYuqing QiMengna LiRuoxuan LiMeng YanHuabei ShenLifeng TianYanmeng LiuShijun TianLiantao LiuYongjiang ZhangHongchun SunZhiying BaiKe Zhang*Cundong Li*. Low-cost and efficient confocal imaging method for arabidopsis flower. Developmental Biology, 2020, 466(1-2): 73-76.

43. 肖爽、刘连涛*、张永江、孙红春、白志英、张科、田士军、董合忠、李存东*. 植物微根系原位观测研究方法进展. 植物营养与肥料学报,2020, 26(2): 1-16.

44. 祝令晓刘连涛*张永江孙红春张科白志英董合忠李存东*. 化学封顶对棉花株型的调控及评价指标筛选.中国农业科学, 2020, 53(20): 4152-4163.

45. 张鑫磊, 刘连涛, 孙红春, 张科, 白志英, 董合忠, 李存东, 张永江*. 不同施氮水平下棉花叶片最大羧化速率的高光谱估测. 农业工程学报, 2020, 36(11): 166-173.

46. 陈莉刘连涛马彤彤江丹孙红春张永江张科白志英*李存东*. 褪黑素对盐胁迫下棉花种子抗氧化酶活性及萌发的影响, 棉花学报, 2019, 31(5): 438-447.

47. 朱晓伟刘连涛万华龙张永江孙红春李存东*. 整枝方式和冠层高度对棉铃时空分布及产量的影响. 棉花学报, 2019, 31(01): 79-88.

48. Liantao LiuAnchang LiJing ChenMan WangYongjiang ZhangHongchun SunXiaodan WangCundong Li*. iTRAQ-based quantitative proteomic analysis of cotton (Gossypium hirsutum L.) leaves reveals pathways associated throughout the aging process. Acta Physiologiae Plantarum, 2019, 41: 144.

49. Shuang XiaoLiantao LiuHao WangDongxiao LiZhiying BaiYongjiang ZhangHongchun SunKe ZhangCundong Li*. Exogenous melatonin accelerates seed germination in cotton (Gossypium hirsutum L.). PLoS ONE, 2019, 14(6): e0216575.

50. Jing ChenLiantao LiuZhanbiao WangHongchun SunYongjiang ZhangZhiying BaiShijia SongZhanyuan Lu*Cundong Li*. Nitrogen fertilization effects on physiology of the cotton boll-leaf system. Agronomy, 2019, 9(6): 271

51. Jing ChenLiantao LiuZhanbiao WangHongchun SunYongjiang Zhang Zhanyuan Lu*Cundong Li*. Determining the effects of nitrogen rate on cotton root growth and distribution with soil cores and minirhizotrons. PLoS ONE, 2018, 13(5): e0197284.

52. Lichao ZhaiYongjiang Zhang*Cundong LiLifang ZhaiLiantao Liu Hongchun Sun. Effects of early fruiting branch removal on physiological traits of leaves related to premature senescence, yield, and fiber quality of transgenic BT cotton. Crop Science, 2018, 58(2): 792.

53. Yongjiang Zhang*Mingyu HouHuiyun XueLiantao LiuHongchun SunCundong Li. Photochemical reflectance index and solar-induced fluorescence for assessing cotton photosynthesis under water-deficit stress. Biologia Plantarum, 2018, 62(4): 817-825.

54. Liantao LiuHongchun SunJing ChenYongjiang ZhangXiaodan WangDongxiao LiCundong Li*. Cotton seedling plants adapted to cadmium stress by enhanced activities of protective enzymes. Plant, Soil and Environment, 2016, 62(2): 80-85.

55. Liantao LiuHongchun SunJing ChenYongjiang ZhangDongxiao LiCundong Li*. Effects of cadmium (Cd) on seedling growth traits and photosynthesis parameters in cotton (Gossypium hirsutum L.). Plant Omics, 2014, 7(4): 284-290.

56. 刘连涛孙红春张永江王春山宋世佳陈静李存东*. 黄河流域棉区早衰棉田土壤肥力综合评价[J]. 棉花学报, 2015, 27(3): 241-247.

57. 陈静刘连涛王亚菲孙红春张永江李存东*路战远*. 氮素对棉株上部果枝铃-叶系统生长及生理特性的影响, 棉花学报, 2015, 15(05): 408-416.

58. 刘连涛陈静孙红春张永江李存东*. 镉胁迫对棉花幼苗生长效应及不同器官镉积累的影响[J]. 棉花学报, 2014, 26(5): 466-470.

59. 刘连涛、孙红春、张永江、李存东. 氮素对棉花群体生理指标的影响. 中国棉花, 2013, 40(4): 9-12.

60. 刘连涛、孙红春、张永江、李存东. 盛铃期遮阴对棉花叶片光合特性的影响. 3522vip浦京集团学报, 2013, 11(6): 1-5.

61. 刘连涛、李存东、孙红春、张永江、白志英、冯丽肖. 氮素营养水平对棉花衰老的影响及其生理机制. 中国农业科学, 2009, 42(5): 1575-1581.

62. 刘连涛、李存东、孙红春、张海娜、冯丽肖. 棉花不同叶位主茎叶衰老特征的研究. 棉花学报, 2008, 2(20): 123-127.

63. 刘连涛、李存东、孙红春. 氮素营养水平对棉花不同部位叶片衰老的生理效应. 植物营养与肥料学报, 2007, 13(5): 910-914.

64. 刘连涛、李存东、孙红春、贾蕾. 棉花叶片衰老生理研究进展. 中国农学通报, 2006, 22(7): 316-321.




◆出版教材著作

1. 李存东、董合忠、齐放军、张永江、刘连涛、孙红春、孔祥强等. 2018. 棉花早衰理论与调控技术,北京:中国农业出版社,310千字

2. 刘连涛(参编). 2018. 农学概论,科学出版社,433千字

3. 刘连涛(参编). 2023. 作物生态学(高等教育农业农村部十四五规划教材),北京:中国农业出版社,620千字




◆制定标准

1. 刘连涛、张永江、孙红春、李存东、白志英、张科。冀中南棉区棉花轻简化栽培技术规程,河北省地方标准,DB 13/T 2901—20182018-12-31-实施

2. 孙红春、张永江、刘连涛、李存东、白志英、张科。半干旱区棉花节水丰产栽培技术规程,河北省地方标准, DB 13/T 2902—20182018-12-31-实施;

3. 李存东,张永江,孙红春,刘连涛,董合忠,刘贞贞。抗虫棉防早衰栽培技术规程,河北省地方标准,DB 13/T 1517—20122012-3-10实施





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